Net ecosystem fluxes and composition of biogenic volatile organic compounds over a maize field–interaction of meteorology and phenological stages

Wiß, Felix; Ghirardo, Andrea; Schnitzler, Jörg‐Peter; Nendel, Claas; Augustin, Jürgen; Hoffmann, Mathias; Grote, Rüdiger

doi:10.1111/gcbb.12454

Cited by 25 publications

(19 citation statements)

References 83 publications

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“…for Miscanthus spp, for grassland, for maize and for maize, respectively. Also, while methanol exchange rates reported in this study were more than 6-fold more substantial than in the maize study of Wiß et al (2017), acetone and acetaldehyde exchange rates were 5 to 10-fold less important.…”

Section: Comparison Of Ovoc Exchange Rates With Other Herbaceous Cropscontrasting

confidence: 74%

“…It is well known that OVOC exchanges are bi-directional (Jardine et al, 2011(Jardine et al, , 2008Kesselmeier et al, 1998;Niinemets et al, 2014;Wohlfahrt et al, 2015), and that cold and wet conditions favour uptake, whereas warm and dry conditions rather favour emission. Several studies have reported methanol (Laffineur et al, 2012;Wiß et al, 2017;Wohlfahrt et al, 2015), acetaldehyde (Jardine et al, 2008) or acetic acid uptake (Jardine et al, 2011) under wet and/or cold conditions, including at the LTO site (Bachy et al, 2016). In particular, bi-directional methanol exchanges were measured for bare soil at the LTO site, and analyses indicated that Fig.…”

Section: Ovoc Uptake Under Cold Conditionsmentioning

confidence: 99%

“…Although they account for 38% of the land area (FAOSTATS, 2013), agricultural ecosystems have been poorly investigated. Most BVOC studies that have investigated crop species were conducted at the leafscale (Crespo et al, 2013;Graus et al, 2013;Hu et al, 2018;Karl et al, 2005;Kesselmeier et al, 1998;K€ onig et al, 1995;Miresmailli et al, 2013;Mozaffar et al, 2017) or lasted only a few days and encompassed poorly contrasted weather conditions (Copeland et al, 2012;Graus et al, 2013), a noticeable exception being the recent study by Wiß et al (2017) on maize using whole plant chambers. In particular, winter wheat is the most important crop worldwide in terms of harvested area, alone representing more than 14% of all agricultural lands (FAOSTATS, 2015), yet has only been investigated in five BVOC studies (Gallagher et al, 2000;Gonzage Gomez et al, 2019;K€ onig et al, 1995;Wang et al, 2015;Wenda-Piesik, 2011).…”

Section: Introductionmentioning

confidence: 99%

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Dynamics and mechanisms of volatile organic compound exchanges in a winter wheat field

Bachy

Aubinet

Amelynck

et al. 2020

Atmospheric Environment

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Section: Comparison Of Ovoc Exchange Rates With Other Herbaceous Cropscontrasting

confidence: 74%

Section: Ovoc Uptake Under Cold Conditionsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Dynamics and mechanisms of volatile organic compound exchanges in a winter wheat field

Bachy

Aubinet

Amelynck

et al. 2020

Atmospheric Environment

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“…Wiß et al, 2017), not only in deciduous plant species but also in evergreens, which 5 retain their foliage for several years. In evergreens, the development of new buds and foliage occurring in spring is characterized by conspicuously high emissions of monoterpenes, methanol and some other VOCs (Aalto et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

Long-term dynamics of monoterpene synthase activities, monoterpene storage pools and emissions in boreal Scots pine

Vanhatalo¹,

Ghirardo²,

Juurola³

et al. 2018

Preprint

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Abstract. Seasonal variations in monoterpene emissions from Scots pine (Pinus sylvestris) are well documented, and emissions are often shown to follow the incident temperatures due to effects on compound volatility. Recent studies have indicated a link between monoterpene emissions and physiological drivers such as photosynthetic capacity during needle 15 development. The complex interplay between the dynamic changes in the biosynthetic capacity to produce monoterpenes and the temperature-dependent evaporation process of volatiles from internal storage reservoirs has not yet been studied under field conditions. Here, we analysed the relationships between needle monoterpene synthase activities, endogenous monoterpene storage pools and monoterpene emissions of needles in two consecutive years at a boreal forest site in Finland. 20The results showed changes in the monoterpene synthase activity of needles, linked to seasonality and needle ontogenesis, while the pool of stored monoterpenes (about 0.5% of dry weight) did not change considerably as a function of needle aging.Monoterpene emissions did not correlate directly with enzyme activity or the storage pool size. We observed notably high plant-to-plant variation in the biosynthesis rates of individual monoterpenes, which did not reflect the storage compound mixture. The enzyme activity producing δ-3-carene was only present in the first months after needle flushing, and decreased 25 with needle age, whereas δ-3-carene was abundant in the endogenous monoterpene pool and dominated the needle emissions.This study emphasizes the seasonal, developmental and intraspecific variability of monoterpene biosynthesis and storage, and calls for more in-depth analyses to reveal how such complex interaction affects monoterpene emissions from pine needles in boreal forests. 30Biogeosciences Discuss., https://doi

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“…Moreover, different types of plants (mainly Cannabis sativa and Cannabis indica) at different growing stages and conditions (soil type, light, fertilization, watering, ventilation, size of pots, concentration of CO 2 in grow rooms, relative humidity, temperature, etc.) may release BVOCs in various ratios (Niinemets, Loreto, and Reichstein 2004;Riedlmeier et al 2017;Wiß et al 2017). Knowing the ERs of BVOCs per plant, the non-BVOC concentrations in the facilities, the release of these emissions into the air, and the concentrations of NOx around the facilities can help estimate the impact of Cannabis grow facilities on air quality and develop optimal air pollution control strategies in the future.…”

Section: Resultsmentioning

confidence: 99%

Dominant volatile organic compounds (VOCs) measured at four Cannabis growing facilities: Pilot study results

Samburova

McDaniel

Campbell

et al. 2019

Journal of the Air & Waste Management Association

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In recent years, sale of recreational marijuana products has been permitted in several states and countries resulting in rapid growth of the commercial cannabis cultivation and processing industry. As previous research has shown, biogenic volatile organic compounds (BVOCs) emitted from plants can react with other urban air constituents (e.g., NOx, HO radical) and thus negatively affect regional air quality. In this pilot study, BVOC emissions from Cannabis plants were analyzed at four grow facilities. The concentrations of measured BVOCs inside the facilities were between 110 and 5,500 μg m −3. One adult Cannabis plant emits hundreds of micrograms of BVOCs per day and thus can trigger the formation of tropospheric ozone (approximately 2.6 g day −1 plant −1) and other toxic air pollutants. In addition, high concentrations of butane (1,080-43,000 μg m −3), another reactive VOC, were observed at the facilities equipped with Cannabis oil extraction stations. Implications: High concentrations of VOCs emitted from Cannabis grow facilities can lead to the formation of ozone, secondary VOCs (e.g., formaldehyde and acrolein), and particulate matter. Our results highlight that further assessment of VOC emissions from Cannabis facilities is needed, and this assessment is one of the key factors for developing policies for optimal air pollution control.

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Net ecosystem fluxes and composition of biogenic volatile organic compounds over a maize field–interaction of meteorology and phenological stages

Cited by 25 publications

References 83 publications

Dynamics and mechanisms of volatile organic compound exchanges in a winter wheat field

Dynamics and mechanisms of volatile organic compound exchanges in a winter wheat field

Long-term dynamics of monoterpene synthase activities, monoterpene storage pools and emissions in boreal Scots pine

Dominant volatile organic compounds (VOCs) measured at four Cannabis growing facilities: Pilot study results

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